{"id":127724,"date":"2022-09-28T07:42:27","date_gmt":"2022-09-28T07:42:27","guid":{"rendered":"https:\/\/ccs.ca\/?post_type=guideline&p=127724"},"modified":"2023-06-02T10:06:13","modified_gmt":"2023-06-02T10:06:13","slug":"chapter-1-diagnosis-and-screening","status":"publish","type":"guideline","link":"https:\/\/ccs.ca\/guideline\/2022-peripheral-arterial-disease\/chapter-1-diagnosis-and-screening\/","title":{"rendered":"1. Diagnosis and Screening"},"content":{"rendered":"\n
PICO 1.1a: What are the most accurate signs, symptoms, and tests for detecting asymptomatic PAD in adults at risk of PAD?<\/em><\/p>\n\n\n\n
PICO 1.1b: What are the most accurate signs, symptoms, and tests (A<\/strong>nkle-B<\/strong>rachial I<\/strong>ndex [ABI], T<\/strong>oe-B<\/strong>rachial I<\/strong>ndex [TBI], transcutanous oxygen pressure [TcP02], plethysmographic wave-forms, magnetic resonance angiography [MRA], computed tomography angiography [CTA], etc) for detecting PAD in adult men and women who present with lower limb symptoms?<\/em><\/p>\n\n\n\n
PICO 1.1c: What are the most accurate signs, symptoms, and tests (ABI, TBI, TcPO2, plethysmographic waveforms, MRA, CTA, etc) for detecting PAD in adult men and women with diabetes or chronic kidney disease who present with lower limb symptoms?<\/em>
Lower extremity PAD is prevalent among people aged 50 years and older. Among those with lower limb symptoms suggestive of claudication, it is important for clinicians to distinguish PAD from other causes of leg pain (Table 1), starting with a thorough clinical history and physical examination focused on relevant signs and symptoms. A validated diagnostic questionnaire for PAD used in epidemiological studies is the Edinburgh Claudication Questionnaire (Table 2), which has a 91.3% (95% confidence interval [CI], 88.1%-94.5%) sensitivity and 99.3% (95% CI, 98.9%-100%) specificity.[3]<\/a><\/sup> Only 5%-10% of patients with PAD present with classical symptoms of intermittent claudication.[4]<\/a><\/sup> Other patients pre-sent with nonspecific back, buttocks, or leg discomfort, whereas some are asymptomatic. Classic features of claudication include: (1) muscle pain, typically involving calf muscles or the muscle group distal to an arterial tenosis or occlusion and often described as cramping in nature; (2) pain that develops only when the muscle is exercised; and (3) pain that resolves usually within 10 minutes of discontinuation of exercise or resting. Typically, patients with vasculogenic claudication experience cramping muscle pain after walking a similar distance. Intermittent claudication differs from chronic limb-threatening ischemia, which includes ischemic rest pain, gangrene, or ulceration on the lower extremity. After a thorough clinical history, clinicians should conduct a focused peripheral vascular examination. Confirmation of the diagnosis of PAD then requires specific tests, considering the broad differential for leg pain (see section 1.1 of the Supplementary Material for more information). There are a number of confirmatory diagnostic tests that help establish the diagnosis of PAD. Some of these tests are more invasive and others are specialized and\/or centre-specific. The most widely used test is the ABI. The ABI is an inexpensive, noninvasive test that involves measuring the systolic BP at the arm (or over the brachial artery) and ankle (or over the dorsal pedis or posterior tibial artery) while the patient is supine, using a continuous-wave Doppler device (Fig. 1). The higher value of systolic pressure at the ankle is divided by the higher of the arm pressures (right or left) to obtain the ABI.[5]<\/a>,[6]<\/a><\/sup> The most widely used and accepted ABI calculation is shown in Figure 1. An ABI < 0.9 suggests PAD.[5]<\/a><\/sup> The incidence of PAD varies according to the prevalence of risk factors for the disease such as smoking, hypertension, hypercholesterolemia, and diabetes mellitus.[4]<\/a><\/sup> Medial arterial calcinosis, which is more prevalent in patients with diabetes, chronic kidney disease, and advanced age, results in poorly compressible arteries.[7]<\/a><\/sup> This might falsely normalize or artificially elevate ABI to a value exceeding 1.4, rendering this test less reliable. Many studies have investigated the accuracy of ABI, oscillometric ABI, TBI, near-infrared technology, pulse oximetry, pulse wave velocity, transcutaneous oxygenation, computed tomography, magnetic resonance imaging, and conventional angiography for diagnosing PAD. The TBI can be calculated with arm and great toe arterial BP measurements. The great toe systolic pressures are divided by the highest arm pressure to establish a TBI measurement for each leg. ABI and TBI are the most studied, but there is a paucity of data for most other tests for the diagnosis of PAD. From these accuracy studies, test characteristics have a very wide range depending on symptoms and risk factors of the population (eg, sensitivity of 45%-100% and specificity of 16%-100% for TBI).[7]<\/a><\/sup> There is also a lack of consistency with respect to how to perform an ABI or TBI. With TBI, the diagnostic cutoff for PAD is variable among studies, although < 0.60 is commonly used. Data suggest that ABI is a reliable way to diagnose PAD. Table 3 shows a comparison of general sensitivity and specificity ranges for these test modalities. An ABI might be insufficient to be used alone for the detection of PAD in people with diabetes and chronic kidney disease because of the higher probability of medial calcification. The literature is limited on diagnosis in patients with chronic kidney disease. Other tests such as the TBI, tibial waveform, and\/or transcutaneous oxygenation should be considered for diagnosing PAD in the case that ABI > 1.4, suggestive of calcified arteries.<\/p>\n\n\n\n